Abstract
Liquid drops sliding on tilted surfaces is an everyday phenomenon and is important for many industrial applications. Still, it is impossible to predict the drop’s sliding velocity. To make a step forward in quantitative understanding, we measured the velocity (U) , contact width (w) , contact length (L) , advancing (θa) , and receding contact angle (θr) of liquid drops sliding down inclined flat surfaces made of different materials. We find the friction force acting on sliding drops of polar and non-polar liquids with viscosities (η ) ranging from 10−3 to 1 Pa ⋅ s can empirically be described by Ff(U) = F+ βwηU for a velocity range up to 0.7 ms−1. The dimensionless friction coefficient (β) defined here varies from 20 to 200. It is a material parameter, specific for a liquid/surface combination. While static wetting is fully described by θa and θr , for dynamic wetting the friction coefficient is additionally necessary.
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